CN102615805B - Right-angle extrusion die for multi-cavity plastic micro-pipe - Google Patents

Abstract

The invention relates to a right-angle extrusion die for a multi-cavity plastic micro-pipe, belonging to the technical field of plastic extrusion molding. The right-angle extrusion die for the multi-cavity plastic micro-pipe is mainly characterized by comprising a flange plate, a connecting pipe, a die head body, a bracket, a mandril body, a mandril, an ingate, a pull rod, an air pipe, a pressing ring, a pressing plate, an auxiliary ring, a locating pin, an adjusting bolt, an ejector rod bolt, a fastening bolt, a pressure/temperature integrated sensor, a heating ring and a thermocouple. A material supply mode in a vertical extrusion direction is adopted for the die; the mandril is fixed by a screw thread pull rod and locked by an ejector rod; the coaxiality and the gap between the mandril and the ingate are adjusted by using a method of fixing the ingate and adjusting the mandril; the pressure/temperature integrated sensor is used for measuring the pressure and the temperature of a plastic fusant in the die; and the heating ring and the thermocouple are used for controlling the temperature of each region in the die. The right-angle extrusion die for the multi-cavity plastic micro-pipe has the advantages that the asymmetric flow balance of the fusant is realized after the plastic fusant flows through a right angle of a special structure of the die and turns, and further uniform thickness of the multi-cavity micro-pipe wall at the ingate outlet of the die is ensured.

Description

A kind of Right-angle extrusion die for multi-cavity plastic micro-pipe

Technical field

The invention belongs to plastic extruding forming technical field, relate to a kind of multi-cavity microtubule right angle extrusion die being realized the asymmetric extrusion flow equilibrium of plastic melt by the design of mold runner special construction.

Background technology

Along with some typical plastic micro, as interposing catheter, plastic optical fiber and automobile oil gas road microtubule etc. are applied to the fields such as medical treatment, communication, automobile gradually, the high added value medical multi-chamber that particularly cross sectional shape is complicated, geometric accuracy is high gets involved microtubule extensive use clinically, makes the extrusion molding of multi-cavity plastic micro become one of the study hotspot in plastics forming technique field.Wherein, how to realize the flow equilibrium of plastic melt in extrusion die is the Important Problems studied in the extrusion molding of multi-cavity microtubule all the time.Because for precise plastic multi-cavity microtubule, in runner, melt flows imbalance will cause multi-lumen tube wall unevenness even, and multi-lumen tube cross sectional shape precision cannot meet the demands, and causes using.So traditional multi-cavity microtubule extrusion die designs according to straight channel, often also exist that venting channels design is difficult, the unmanageable defect of part, cause design and processing cost is high, poor reliability.In order to make the design of multi-lumen tube air supply channel and processing be more prone to, the feedstock direction of multi-lumen tube extrusion die design great majority employing die entrance and extrusion molding direction are at an angle.But this mould structure just causes a kind of unsymmetric structure artificially, how to realize plastic melt and realize flow equilibrium in this unsymmetric structure, it is a technical barrier being badly in need of solving.If a kind of right angle extrusion die can be designed, realize the asymmetric drift dynamic balancing of plastic melt, solve a difficult problem for runner and air flue design in the design of multi-lumen tube extrusion die, improve the Forming Quality of multi-cavity microtubule, reduce Design of Dies and manufacturing cost.

Summary of the invention

The object of the present invention is to provide a kind of multi-cavity microtubule right angle extrusion die realizing plastic melt flow equilibrium, after 90 ° of angles turn to, reaching flow equilibrium for realizing plastic melt, solve design and a processing difficult problem for mould aerating system.

Technical scheme of the present invention is:

A kind of Right-angle extrusion die for multi-cavity plastic micro-pipe, forms primarily of ring flange, tube connector, handpiece body, bracket, mandrel body, plug, mouth mould, pull bar, breather pipe, trim ring, pressing plate, auxiliary circle, alignment pin, adjusting bolt, push rod bolt, fastening bolt, Pressure/Temperature integrated sensor, heating collar and thermocouple.Handpiece body is connected with outlet of extruder with ring flange by tube connector, pull bar utilization is threaded and plug and mandrel body are fixed together by push rod bolt, mouthful mould is fixed on bracket by trim ring, mouth mould alignment pin and trim ring fastening bolt, and adjusting bolt is for regulating axiality mouthful between mould and plug and gap; At right angles, plastic melt flow through molds special flow passage structure realizes right-angle steering for the feedstock direction of this die entrance and extrusion molding direction.

The plastic melt of melting enters mold runner by tube connector under the effect of the pressure, and the special flow passage then by being formed by handpiece body and mandrel body realizes right-angle steering, through the compression of compression section, finally from die extrusion.Pressure/Temperature integrated sensor for measure position runner in melt temperature and pressure; In breather pipe and die mandrel, venting channels provides the compressed air of continuous uniform to multi-cavity microtubule, ensures the quality extruding conduit cavity.Heating collar and thermocouple keep the temperature of setting for controlling each region of mould in plastic melt extrusion.

The die cavity cross section of this die machine head body is circular or oval, and the cross section of fluid channel of mandrel body is circular or oval, forms the runner gap gradually changed between handpiece body and mandrel body.

This mould adopts modularized design, according to production and research needs, changes plug and the mouth mould of Different structural parameters, the multi-lumen tube of extrusion molding different cavity number, shape and size.

Effect of the present invention and benefit are: at right angles, according to melt flows equilibrium principle, plastic melt realizes right-angle steering by the special flow passage formed by handpiece body and mandrel body for the feedstock direction of die entrance of the present invention and extrusion molding direction.This mould is conducive to design and the processing of multi-lumen mold aerating system, shortens the mould lead time.The present invention solves a difficult problem for runner and air flue design in the design of multi-lumen tube extrusion die, improves the Forming Quality of multi-cavity microtubule, reduces Design of Dies and manufacturing cost.

Accompanying drawing explanation

Accompanying drawing is the structural representation of Right-angle extrusion die for multi-cavity plastic micro-pipe.

In figure: 1 ring flange; 2 tube connectors; 3 tube connector heating collars; 4 auxiliary circles; 5 handpiece body heating collars; 6 handpiece bodies; 7 mandrel body alignment pins; 8 mandrel bodies; 9 push rod bolts; 10 pull bars; 11 breather pipes; 12 mandrel body fastening bolts; 13 pressing plate fastening bolts; 14 brackets; 15 Pressure/Temperature integrated sensors; 16 trim ring fastening bolts; 17 trim rings; 18 plugs; 19 mouthfuls of moulds; 20 mouthfuls of mould alignment pins; 21 plug alignment pins; 22 mouthfuls of mould heating collars; 23 mouthfuls of mould thermocouples; 24 pressing plates; 25 adjusting bolts; 26 handpiece body thermocouples.

Detailed description of the invention

Specific embodiments of the invention are described in detail below in conjunction with technical scheme and accompanying drawing.

Use a kind of TPU multi-cavity of mould extrusion molding of the present invention microtubule, embodiment step is as follows:

Step 1

Use drying baker to dry the TPU specific time at a certain temperature, remove moisture.

Step 2

Mould is installed on extruder, and installs heating collar, thermocouple and Pressure/Temperature integrated sensor.

Step 3

Start extruder, extruder screw rotating speed and barrel each section of temperature are set, utilize heating collar and thermocouple that each for mould region is heated to design temperature stage by stage simultaneously, and held for some time.

Step 4

Adjust the gap mouthful between mould and plug by the adjusting bolt on adjustment mould, to make between plug and mouth mould with one heart.

Step 5

The TPU plastic grain of oven dry is poured in extruder hopper, under the promotion of extruder screw, plastic melt flows directly into mold runner by tube connector, then the special flow passage by being formed by handpiece body and mandrel body realizes right-angle steering, through the compression of compression section, last plastic melt is from die extrusion.

Step 6

Plastic melt, after die extrusion, cools in cooling water tank, under the effect of hauling machine, and extrusion molding multi-cavity plastic micro.

Step 7

In extrusion, by changing the parameters such as extruder screw rotating speed, barrel temperature, mold temperature, water tank vacuum and hauling speed, detect the technical indicator such as multi-cavity microtubule circularity and Wall thickness uniformity by measurement mechanisms such as laser diameter measuring instruments.Meanwhile, the pressure and temperature that Pressure/Temperature integrated sensor is measured is recorded.

Step 8

According to production and research needs, change plug and the mouth mould of Different structural parameters, the multi-cavity plastic micro of extrusion molding different cavity number, shape and size.

Claims (3)

1. a Right-angle extrusion die for multi-cavity plastic micro-pipe, by ring flange (1), tube connector (2), tube connector heating collar (3), auxiliary circle (4), handpiece body heating collar (5), handpiece body (6), mandrel body alignment pin (7), mandrel body (8), push rod bolt (9), pull bar (10), breather pipe (11), mandrel body fastening bolt (12), pressing plate fastening bolt (13), bracket (14), Pressure/Temperature integrated sensor (15), trim ring fastening bolt (16), trim ring (17), plug (18), mouth mould (19), mouth mould alignment pin (20), plug alignment pin (21), mouth mould heating collar (22), mouth mould thermocouple (23), pressing plate (24), adjusting bolt (25), handpiece body thermocouple (26) forms, it is characterized in that: handpiece body (6) is connected with outlet of extruder with ring flange (1) by tube connector (2), pull bar (10) utilization is threaded and plug (18) and mandrel body (8) are fixed together by push rod bolt (9), mouthful mould (19) is fixed on bracket (14) by trim ring (17), mouth mould alignment pin (20) and trim ring fastening bolt (16), and adjusting bolt (25) is for regulating axiality between a mouthful mould (19) and plug (18) and gap, at right angles, plastic melt flow through molds flow passage structure realizes right-angle steering for the feedstock direction of die entrance and extrusion molding direction, Pressure/Temperature integrated sensor (15) for measure position runner in melt temperature and pressure, heating collar and thermocouple keep the temperature of setting for controlling each region of mould in the micro-extrusion of plastic melt.

2. a kind of Right-angle extrusion die for multi-cavity plastic micro-pipe according to claim 1, it is characterized in that: the die cavity cross section of handpiece body (6) is circular or oval, the cross section of fluid channel of mandrel body (8) is circular or oval, forms the runner gap gradually changed between handpiece body (6) and mandrel body (8).

3. a kind of Right-angle extrusion die for multi-cavity plastic micro-pipe according to claim 1, is characterized in that: change different plugs (18) and mouth mould (19) as required.